CN115008594B - Building partition plate assembly line production system - Google Patents

Abstract

The invention discloses a production line production system of building partition boards, which comprises a first conveying mechanism, a transfer mechanism, a second conveying mechanism and a curing kiln, wherein the first conveying mechanism is used for conveying formed building partition boards to the transfer mechanism, the transfer mechanism is arranged at the tail end of the first conveying mechanism and at one side of the starting end of the second conveying mechanism and is used for receiving building partition boards, turning the building partition boards in a horizontal state into a vertical state and then pushing the building partition boards to the second conveying mechanism, and the rear end of the second conveying mechanism extends into the curing kiln and is used for conveying the building partition boards into the curing kiln. The assembly line production system for building partition boards can realize automatic transfer of partition boards between forming equipment and curing equipment, the whole process does not need manual operation, trouble and labor are saved, the efficiency is high, and the partition board curing effect is good.

Description

Building partition plate assembly line production system

Technical Field

The invention relates to the technical field of buildings, in particular to a production line system for building partition boards.

Background

The partition board is a prefabricated wall board for the internal partition of building, which is specified in JG/T169-2005 light weight board for building partition, and comprises glass fiber reinforced cement board, glass fiber reinforced gypsum hollow board, steel wire (steel wire mesh) reinforced cement board, light concrete board, composite sandwich light weight board and the like, and is used as a main material of non-bearing internal partition of general industrial building, residential building and public building engineering. The existing production process of the building partition board comprises the steps of extruding and forming the prepared raw materials through an extruder, cutting to length, conveying, turning over for 90 degrees, then entering a curing kiln for air drying, curing and shaping, and finally obtaining the building partition board finished product.

At present, the market lacks complete assembly line type building partition plate production equipment, and the extruded building partition plate is basically carried and maintained manually. Although the prior art CN102211349B provides a production line method and a production line device for building partition boards, the device cannot realize automatic transfer of partition boards between molding equipment and maintenance equipment, manual operation is still required, the complex operation of a turnover mechanism is complex, the time consumption efficiency is low, and the maintenance of partition boards is slow and the effect is poor.

Disclosure of Invention

The invention aims to provide a production line system for building partition boards, which aims at overcoming the defects and shortcomings of the prior various technologies and is subjected to analysis, experiment and use.

The specific scheme of the invention is as follows: the utility model provides a building partition plate assembly line production system, includes first conveying mechanism, transfer mechanism, second conveying mechanism and curing kiln, first conveying mechanism is used for carrying the building partition plate of shaping to transfer mechanism, transfer mechanism sets up at first conveying mechanism end to set up in second conveying mechanism initiating terminal one side for receiving the building partition plate, and push away to second conveying mechanism after turning over the building partition plate of horizontality into vertical state, second conveying mechanism rear end extends in the curing kiln, is used for carrying the building partition plate to the curing kiln in.

Preferably, the transfer mechanism comprises a bottom frame, a height adjusting mechanism, a mounting base, a hanging vertical plate, a roll-over stand and a pushing mechanism, wherein the bottom frame comprises a bottom plate, a plurality of universal wheels arranged below the bottom plate and universal wheel locking pieces, the mounting base is connected to the bottom plate through the height adjusting mechanism, the hanging vertical plate is vertically fixed to the bottom plate and positioned at the rear side of the mounting base, the mounting base comprises a bottom plate and four side plates fixed to the bottom plate and sequentially connected with each other, a pair of circular arc openings with upward openings are symmetrically formed in the front side plate and the rear side plate, rolling grooves are formed in the circular arc openings along the whole circular arc openings, the roll-over stand comprises a storage plate, a left baffle plate and a rear side mounting plate which are connected to the storage plate, a limiting component is arranged on the storage plate, an upward protruding mounting part is formed in the middle of the rear side mounting plate, the hanging vertical plate is provided with a rotating bearing and is connected with the rotating shaft through the rotating bearing, the mounting part is fixedly connected with the rotating shaft, the receiving stand is suspended above the mounting base, the two side plates are symmetrically arranged on the bottom plate, a second side plate is fixedly connected with a fan-shaped support plate, two fan-shaped support plates are respectively arranged at the two sides of the two side plates, a first side plate is fixedly arranged at the two side plates are respectively, a second side plate is fixedly connected with a second side plate is fixedly arranged at the two fan-shaped roller cylinder, a second roller is fixedly arranged at the two side of the two side plate is fixedly arranged at the two side of the bottom plate, and one side plate is fixedly extends to the two side of the hydraulic cylinder is respectively, and outside the two side plate is respectively, and two side is fixedly arranged at the upper side opposite side to the right side, and has a lower cylinder is fixedly, and has a lower cylinder, and a lower cylinder is arranged. The utility model discloses a hydraulic cylinder, including the backup pad, hang riser rear side, two second pneumatic cylinder fixing bases about the backup pad is fixed with the second pneumatic cylinder fixing base, the telescopic link of second pneumatic cylinder hangs the riser setting perpendicularly, hang the riser and offer the first through-hole that supplies the telescopic link of second pneumatic cylinder to pass through, the second through-hole that supplies the telescopic link of second pneumatic cylinder to pass through is offered to the rear side mounting panel.

Preferably, the spacing subassembly includes controls two fixed establishment, fixed establishment includes fixed pole setting, rotation loop bar, rotates stock and gag lever post, and two fixed pole setting are fixed respectively in the front and back both sides right-hand member edge of putting the thing board, rotate loop bar one end perpendicular to be fixed in fixed pole setting, the parallel rear side mounting panel left side of the other end extends, rotate the stock right-hand member and rotate to connect in rotating the loop bar, rotate the stock left end and rotate to insert and establish in the left side baffle, rotate the stock suspension and put thing board top and parallel rear side mounting panel setting, evenly spaced and perpendicular have arranged a plurality of spacing crossbars on the rotation stock, gag lever post perpendicular to be fixed in rotation stock right-hand member and extend to putting the thing board centre, hollow loop bar that the dead lever end perpendicular connection stretches out downwards, hollow loop bar both sides are formed with along the adjustment tank that length direction extends, hollow loop bar interpolation is equipped with the dead lever of gyro wheel support and is fixed through adjusting bolt, the gyro wheel support is connected with the gyro wheel of front and back rotation, rotate loop bar cover is equipped with one end on rotating the torsion spring, the torsion spring is fixed to the other end on the torsional spring, and applies the overlap joint force to the gag lever.

Preferably, the storage plate is further provided with a guide assembly, the storage plate is provided with two lightening holes, the guide assembly comprises two guide plates and a plurality of guide wheels arranged on the guide plates, the two guide plates are parallelly fixed on the storage plate and are arranged along the left-right direction of the storage plate, the right end of each guide plate is configured into an inclined plane end, the guide wheels are located in the lightening holes, a fixing groove is formed in the inner side of each left baffle, a sliding groove extending along the front-rear direction of each left baffle is formed in the middle of each fixing groove, a sliding wheel is arranged in each sliding groove, and the tops of the sliding wheels are slightly higher than the sliding grooves.

Preferably, the first conveying mechanism and the second conveying mechanism all comprise a frame, a motor, a speed reducer, a transmission chain, a transmission sprocket, a transmission wheel, a transmission main shaft, a driven shaft, two driving sprockets, two driven sprockets, two annular chains and a plurality of conveying plates, wherein the transmission sprocket is sequentially connected with the speed reducer and the motor through a transmission shaft, the motor is connected with the speed reducer, the speed reducer is connected with the transmission sprocket through the transmission shaft, the transmission main shaft and the driven shaft are respectively connected on the frame through bearings in a front-back rotation manner, the transmission sprocket is connected with the transmission wheel penetrating on the transmission main shaft through the transmission chain, the two driving sprockets are respectively positioned on the inner sides of the two side plates, the two driven sprockets are respectively penetrating on the driven shaft and positioned on the inner sides of the two side plates, the driving sprockets are sequentially adjacent to the driven sprockets through the annular chains, the conveying plates are sequentially fixed between the two annular chains, and the conveying plates are of a hollowed structure.

Preferably, the first conveying mechanism is further provided with a plurality of pushing plates at intervals between the two annular chains, the pushing plates are perpendicular to the conveying plates, the distance between every two adjacent pushing plates is slightly larger than the length of the partition plate, the height of the top of the first conveying mechanism is identical to the height of the storage plate in a horizontal state, the second conveying mechanism is provided with a plurality of fixing mechanisms at intervals between the two annular chains, the fixing mechanisms are used for fixing the partition plate, and the height of the top of the second conveying mechanism is identical to the height of the left baffle plate in a vertical state of the transfer mechanism.

Preferably, the side plate top of frame still is provided with "U" shape support, the parallel annular chain upper segment of "U" shape support and opening outwards set up, the interval is fixed with a plurality of hollow shafts through the bolt in proper order on the "U" shape support, the hollow shaft is connected with the supporting wheel in "U" shape support inboard, the supporting wheel rotates with the hollow shaft through two front and back bearings and is connected, the supporting wheel butt is used for improving the holding power in annular chain upper segment below, the hollow shaft inner is connected with the sealing cap, the hollow shaft outer end is connected with the oil feed cap, the oil feed cap passes through oil feed pipe and is connected with the lubricating oil tank body, be formed with the flow chamber with oil feed cap intercommunication in the hollow shaft, be formed with the oil storage chamber between hollow shaft, supporting wheel and the two bearings, oil storage chamber and flow chamber intercommunication.

Preferably, the fixing mechanism comprises a first fixing component and a second fixing component which are matched with each other, the first fixing component comprises a first upper connecting rod, a first lower connecting rod, a reinforcing rod, a U-shaped fixing rod and two first Z-shaped mounting frames, the first Z-shaped mounting frames comprise a first middle plate, a first upper mounting plate vertically connected to the first middle plate and a first lower mounting plate vertically connected to the first middle plate, the first upper connecting rod and the first lower connecting rod are respectively and fixedly arranged between the two first upper mounting plates in a penetrating manner, the U-shaped fixing rod comprises a U-shaped upper section and an arc-shaped lower section connected to two free ends of the U-shaped upper section, the lower end of the arc-shaped lower section is fixedly connected with the front of the first upper connecting rod, then extends to the rear of the first lower connecting rod and is fixedly connected with the first lower connecting rod, the reinforcing rod is connected with the tail ends of two free ends of the U-shaped upper section, the U-shaped upper section and the reinforcing rod are formed above the front of the first Z-shaped mounting frame, the second fixing component comprises a second upper connecting rod, a middle connecting rod, a second lower connecting rod, two second Z-shaped mounting frames, four movable mounting plates, an upper movable rod, a lower movable rod, two U-shaped movable rods and a toggle rod, the second Z-shaped mounting frame comprises a second middle plate, a second upper mounting plate vertically connected to the second middle plate and a second lower mounting plate vertically connected to the lower part of the second middle plate, the second upper connecting rod, the middle connecting rod and the second lower connecting rod are respectively fixedly arranged between the two second upper mounting plates in a penetrating manner, the two movable mounting plates are arranged on the outer side of the second Z-shaped mounting frame and the two movable mounting plates are arranged on the inner side of the second Z-shaped mounting frame, the lower parts of the movable mounting plates are hinged with the middle connecting rods, the upper movable rods are fixedly connected with the upper parts of the two movable mounting plates, the lower movable rods are respectively and fixedly connected with the middle parts of the two movable mounting plates, the U-shaped movable rods comprise U-shaped upper sections, arc-shaped middle sections connected with the two ends of the U-shaped upper sections and straight sections connected with the lower ends of the arc-shaped middle sections, the straight sections are fixed behind the upper movable rods and form bending parts which are bent upwards from downward extension, the straight sections are formed in front of the second upper connecting rods, the bending parts are downward extension and fixedly connected with the lower movable rods, the U-shaped upper sections are formed above the rear parts of the movable mounting plates, the movable mounting plates are provided with first open slots for accommodating the second upper connecting rods, and the bending parts can accommodate the second upper connecting rods, the second upper mounting plate is provided with a second open slot for accommodating the lower movable rod, the middle connecting rod is sleeved with a torsion spring, the torsion spring is positioned between the inner side of the second Z-shaped mounting frame and the movable mounting plate, the lower end of the torsion spring is connected to the second lower connecting rod, the upper end of the torsion spring is connected to the lower movable rod and is used for applying pressure to the lower movable rod, the toggle rod is connected to one of the lower ends of the two middle movable mounting plates, the lower end of the toggle rod is rotationally connected with a toggle wheel, the first fixing component is respectively fixed on two annular chains through the two first lower mounting plates, the second fixing component is respectively fixed on the two annular chains through the two second lower mounting plates, a toggle cross rod is fixed on the inner side of a side plate of the frame and corresponds to the position of the vertically lower turnover frame, the poking cross rod can be matched with the poking wheel in a short time poking mode, so that the U-shaped movable rod is opened to be matched with the U-shaped fixed rod to clamp the partition board.

Preferably, the system further comprises a controller, wherein the controller adopts a programmable logic controller as a layered control structure and comprises a main controller, a first slave controller, a second slave controller, a third slave controller and a fourth slave controller, wherein the main controller is communicated with each slave controller through a network, the first slave controller is used for controlling a motor of the first conveying mechanism so as to control the first conveying mechanism to sequentially convey one partition plate to the transfer mechanism at intervals, the second slave controller is used for controlling a stroke of a first hydraulic cylinder so as to enable the turnover frame to drive the partition plate to turn over and restore the turnover frame, the third slave controller is used for controlling a stroke of a second hydraulic cylinder so as to push the partition plate in a vertical state from the turnover frame to the second conveying mechanism, the fourth slave controller is used for controlling the motor of the second conveying mechanism so as to convey the partition plate into the curing kiln, and the main controller is matched with the control panel to report information to an upper computer.

Preferably, the height adjusting mechanism comprises a rotating wheel, a rotating rod, a driving gear, a driven gear, a rotating sleeve, a lifting rod, a sliding sleeve and a guiding rod, wherein the sliding sleeve is fixed under a bottom plate, the guiding rod is fixed on a bottom plate and is inserted into the sliding sleeve, the rotating sleeve is arranged on the bottom plate in a penetrating manner through a bearing, threads are formed on the inner wall of the rotating sleeve, the driven gear is sleeved outside the rotating sleeve, the lifting rod is fixed on the bottom plate and is inserted into the rotating sleeve, the upper end of the lifting rod is in threaded connection with the rotating sleeve, the rotating rod is rotationally connected on a side plate of the mounting base through a bearing, one end of the rotating rod is connected with the rotating wheel arranged outside the mounting base, the other end of the rotating rod is connected with the driving gear, and the driving gear is vertically meshed with the driven gear.

By adopting the technical scheme, the invention has the following technical effects: the assembly line production system for building partition boards can realize automatic transfer of partition boards between forming equipment and curing equipment, the whole process does not need manual operation, trouble and labor are saved, the efficiency is high, and the partition board curing effect is good.

Drawings

FIG. 1 is a schematic diagram of a construction partition plate assembly line production system provided by an embodiment of the invention;

FIG. 2 is another schematic diagram of a construction partition plate assembly line production system provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a transfer mechanism according to an embodiment of the present invention;

fig. 4 is another schematic structural diagram of a transfer mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic view of a height adjustment mechanism according to an embodiment of the present invention; .

FIG. 6 is a schematic structural view of a first conveying mechanism and a second conveying mechanism according to an embodiment of the present invention;

FIG. 7 is another schematic view of the first conveying mechanism and the second conveying mechanism according to the embodiment of the present invention;

FIG. 8 is a schematic view of a supporting wheel according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of a first fixing assembly according to an embodiment of the present invention;

Fig. 10 is a schematic structural diagram of a second fixing assembly according to an embodiment of the present invention.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless it is specifically stated otherwise.

The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.

Techniques and equipment known to those of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate.

In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of exemplary embodiments may have different values.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

It should be noted that, in the embodiments of the present invention, terms of front, back, left, right, upper, lower, etc. are merely relative concepts or references to normal use states of the product, and should not be construed as limiting.

Referring to fig. 1-10, an embodiment of the present invention provides a building partition panel assembly line production system.

As shown in fig. 1-2, the building partition plate assembly line production system comprises a first conveying mechanism 100, a transfer mechanism 200, a second conveying mechanism 300 and a curing kiln M, wherein the first conveying mechanism 100 is used for conveying formed building partition plates N to the transfer mechanism 200, the transfer mechanism 200 is arranged at the tail end of the first conveying mechanism 100 and at one side of the starting end of the second conveying mechanism 300 and is used for receiving building partition plates, turning the building partition plates N in a horizontal state into a vertical state and then pushing the building partition plates N to the second conveying mechanism 300, and the rear end of the second conveying mechanism 300 extends in the curing kiln M and is used for conveying the building partition plates N into the curing kiln M.

The production line system for building partition boards realizes automatic transfer of partition boards between forming equipment and curing equipment, the whole process does not need manual operation, trouble and labor are saved, the efficiency is high, and the partition board curing effect is good.

Referring to fig. 2-4, in a preferred embodiment of the present invention, a transfer mechanism 200 of an embodiment of the present invention includes a chassis 201, a height adjustment mechanism 202, a mounting base 203, a hanging riser 204, a roll-over stand 205, and a pushing mechanism 206. The chassis 201 includes the bottom plate, sets up a plurality of universal wheels and the universal wheel retaining member under the bottom plate, the installation base 203 passes through high guiding mechanism 202 to be connected on the bottom plate, hang riser 204 vertical fixation and lie in installation base 203 rear side on the bottom plate, installation base 203 includes the bottom plate and fixes four curb plates that meet in proper order on the bottom plate, and a pair of ascending circular arc opening 203a of opening has been seted up to the symmetry on two preceding curb plates around, has seted up the rolling groove along whole circular arc opening 203a in circular arc opening 203 a. The roll-over stand 205 includes a thing board 205a, connects left side baffle 205b and rear side mounting panel 205c on putting thing board 205a, be provided with spacing subassembly 207 on putting thing board 205a, spacing subassembly 207 is used for spacing the partition plate on putting thing board 205a after roll-over stand 205 upset, prevents to drop. An upwardly protruding mounting portion is formed in the middle of the rear mounting plate 205c, the suspension riser 204 is provided with a rotation bearing and is connected with a rotation shaft through the rotation bearing, the mounting portion is fixedly connected with the rotation shaft, and the receiving frame is suspended above the mounting base 203. Two fan-shaped supporting plates 205d are symmetrically fixed at the bottom of the object placing plate 205a, the two fan-shaped supporting plates 205d are perpendicular to the object placing plate 205a, the two fan-shaped supporting plates 205d are respectively located above the two circular arc openings 203a, two rollers 205e and a limiting plate 205f are installed below the fan-shaped supporting plates 205d, the rollers 205e are located in a rolling groove, the limiting plate 205f is connected to the outer side of the supporting plate and extends downwards, and the free end of the limiting plate 205f is located on the outer side of a side plate of the installation base 203. The right-hand member in the outside of rear side mounting panel 205c is fixed with the actuating lever, still install first pneumatic cylinder fixing base on the bottom plate, the pneumatic cylinder fixing base is fixed with first pneumatic cylinder 205g, the telescopic link and the actuating lever of first pneumatic cylinder 205g are articulated. The pushing mechanism 206 includes two second hydraulic cylinders, and the pushing mechanism is used for pushing the partition board on the roll-over stand to the second conveying mechanism. The rear side of the hanging vertical plate 204 is fixedly provided with an upper second hydraulic cylinder fixing seat and a lower second hydraulic cylinder fixing seat through a supporting plate, the second hydraulic cylinders are fixed on the second hydraulic cylinder fixing seat, the telescopic rods of the second hydraulic cylinders are perpendicularly arranged on the hanging vertical plate 204, the hanging vertical plate 204 is provided with a first through hole for the telescopic rods of the second hydraulic cylinders to pass through, and the rear side mounting plate 205c is provided with a second through hole for the telescopic rods of the second hydraulic cylinders to pass through. The transfer mechanism does not need to be installed aiming at the conveying mechanism, and can be widely matched with different conveying mechanisms for use; the partition board of the first conveying mechanism is supported by the storage board, then the partition board is matched with the first hydraulic cylinder, the rotating shaft, the idler wheels under the fan-shaped support plates and the like, stable and rapid overturning from a horizontal state to a vertical state is realized, the stress in the overturning process is more reasonable, manual additional operation is not needed, and the service life is longer.

In addition, the limiting assembly 207 according to the embodiment of the present invention includes a left fixing mechanism and a right fixing mechanism, where the fixing mechanism includes a fixing upright, a rotating sleeve, a rotating long rod 207a and a limiting rod 207b, the two fixing uprights are respectively fixed on the right edges of the front and rear sides of the object placing plate 205a, one end of the rotating sleeve is vertically fixed on the fixing upright, the other end of the rotating sleeve extends to the left side parallel to the rear side mounting plate 205c, the right end of the rotating long rod 207a is rotatably connected in the rotating sleeve, the left end of the rotating long rod 207a is rotatably inserted in the left side baffle 205b, the rotating long rod 207a is suspended above the object placing plate 205a and is arranged parallel to the rear side mounting plate 205c, the utility model discloses a long pole is fixed, including rotation long pole 207a, rotation long pole 207a is last evenly spaced and vertically arranged a plurality of spacing diaphragm, limit lever 207b vertical fixation is at rotation long pole 207a right-hand member and extends to the middle of putting the thing board 205a, the hollow loop bar that extends downwards is connected perpendicularly to limit lever 207b end, hollow loop bar both sides are formed with along the adjustment tank that length direction extends, the dead lever of gyro wheel support is equipped with in the hollow loop bar interpolation and passes through adjusting bolt to be fixed, gyro wheel support is connected with the gyro wheel of fore-and-aft rotation, the cover is equipped with the torsional spring on the rotation loop bar, torsional spring one end is fixed on the rotation pole cover, and the other end overlap joint is on limit lever 207b and applys the compressive force to limit lever 207 b. The limiting component can fully limit the partition plate in a vertical state to prevent the partition plate from falling off, and meanwhile, the rollers of the roller bracket can assist the pushing mechanism to push the partition plate to the second conveying mechanism; in addition, the frame type structure of the limiting assembly can facilitate observation of faults, overhaul and treatment and take down partition boards conveniently relative to the limiting plate structure.

In addition, a guide assembly is further arranged on the object placing plate 205a, the object placing plate 205a is provided with two lightening holes 205h, the guide assembly comprises two guide plates and a plurality of guide wheels 205i arranged on the guide plates, the two guide plates are fixed on the object placing plate 205a in parallel and are arranged along the left-right direction of the object placing plate 205a, the right end of the guide plate is configured into an inclined surface end, the guide wheels 205i are positioned in the lightening holes 205h, a fixing groove is formed in the inner side of the left baffle 205b, a sliding groove extending along the front-back direction of the left baffle 205b is formed in the middle of the fixing groove, a sliding wheel 205j is arranged in the sliding groove, and the top of the sliding wheel 205j is slightly higher than the sliding groove. According to the invention, the design of the weight reducing holes can reduce the resistance in the overturning process, and the guide assembly is arranged, so that the object placing plate can conveniently receive the partition plate pushed by the first conveying mechanism, the resistance is reduced, the damage to the partition plate is avoided, the design of the sliding wheels reduces the resistance, and the upright partition plate can easily and stably move under the pushing of the pushing mechanism.

As shown in fig. 5, the height adjusting mechanism 202 according to the embodiment of the present invention includes a rotating wheel 202a, a rotating rod 202b, a driving gear 202c, a driven gear 202d, a rotating sleeve 202e, a lifting rod 202f, a sliding sleeve 202g and a guiding rod 202h, wherein the sliding sleeve 202g is fixed under a bottom plate, the guiding rod 202h is fixed on a bottom plate and is inserted into the sliding sleeve 202g, the rotating sleeve 202e is installed on the bottom plate in a penetrating manner through a bearing, the inner wall of the rotating sleeve 202e is provided with threads, the driven gear 202d is sleeved outside the rotating sleeve 202e, the lifting rod 202f is fixed on the bottom plate and is inserted into the rotating sleeve 202e, the upper end of the lifting rod 202f is connected with the threads of the rotating sleeve 202e, the rotating rod 202b is connected with a side plate of the mounting base 203 through a bearing, one end of the rotating rod 202b is connected with the rotating wheel 202a arranged outside the mounting base 203, the other end of the rotating rod is connected with the driving gear 202c, and the driving gear 202c is meshed with the driven gear 202d vertically. The transfer mechanism realizes the height adjustment function by arranging the height adjustment mechanism, so that the transfer mechanism is suitable for conveying mechanisms with different heights, and the first conveying mechanism and/or the second conveying mechanism can be provided with the height adjustment mechanism or can be heightened or lowered as required; moreover, the error adjustment is realized by arranging the height adjusting mechanism, so that the partition plate is transported more accurately. The height adjusting mechanism can be manually operated to easily adjust the height through transmission, and the special structure can not loosen and descend after adjustment. It should be noted that, the height adjusting mechanism can also be provided with an L-shaped fixing frame as required, two ends of the L-shaped fixing frame are fixed on the bottom plate, the upper end of the rotating sleeve can be rotationally connected on the L-shaped fixing frame through a bearing, and the rotating rod can also be rotationally connected on the L-shaped fixing frame through a bearing.

Referring to fig. 6-7, in a preferred embodiment of the present invention, the first and second conveying mechanisms 100 and 300 each include a frame 101, a motor, a decelerator, a drive chain, a drive sprocket, a transmission wheel, a transmission main shaft 102, a driven shaft, two drive sprockets 103, two driven sprockets, two endless chains 104, and a plurality of conveying plates 105. The transmission sprocket passes through the transmission shaft to be connected with reduction gear, motor in proper order, the motor links to each other with the reduction gear, the reduction gear passes through the transmission shaft and is connected with transmission sprocket, transmission main shaft 102, driven shaft rotate around through the bearing respectively and connect on frame 101, transmission sprocket passes through the drive chain and wears to adorn the drive wheel on transmission main shaft 102 to be connected, two drive sprocket 103 wear to adorn on transmission main shaft 102, frame 101 includes left and right sides two curb plates, and two drive sprocket 103 are located two curb plates respectively inboard, two driven sprocket wear to adorn respectively on the driven shaft and are located two curb plates inboard, drive sprocket 103 passes through annular chain 104 with driven sprocket and is connected, a plurality of conveying boards 105 are adjacent in proper order to be fixed between two annular chain 104, conveying board 105 is hollow out construction. The conveying plate 105 can provide air permeability for the hollow structure, provides the air-drying effect.

In addition, the first conveying mechanism 100 is further provided with a plurality of pushing plates at intervals between the two annular chains 104, the pushing plates are perpendicular to the conveying plates 105, the distance between two adjacent pushing plates is slightly larger than the length of the partition plate, the height of the top of the first conveying mechanism 100 is the same as the height of the object placing plate 205a in a horizontal state, the second conveying mechanism 300 is provided with a plurality of fixing mechanisms at intervals between the two annular chains 104, the fixing mechanisms are used for fixing the partition plate, and the height of the top of the second conveying mechanism 300 is the same as the height of the left baffle 205b in a vertical state of the transfer mechanism 200.

Referring to fig. 7-8, in a preferred embodiment of the present invention, a "U" shaped bracket 106 is further disposed at the top of a side plate of the frame 101 of the embodiment of the present invention, the "U" shaped bracket 106 is parallel to an upper section of the annular chain 104 and is disposed with an opening outwards, a plurality of hollow shafts 106b are sequentially fixed on the "U" shaped bracket 106 at intervals through bolts 106a, the hollow shafts 106b are connected with a supporting wheel 106c inside the "U" shaped bracket 106, the supporting wheel 106c is rotationally connected with the hollow shafts 106b through front and rear two bearings 106d, the supporting wheel 106c is abutted under an upper section of the annular chain 104 for improving supporting force, a sealing cap 106e is connected at an inner end of the hollow shafts 106b, an oil inlet cap 106f is connected at an outer end of the hollow shafts 106b, the oil inlet cap 106f is connected with a lubricating oil tank 106h through an oil inlet pipe 106g, a flow cavity communicating with the oil inlet cap 106f is formed in the hollow shafts 106b, an oil storage cavity 106i is formed between the supporting wheel 106c and the two bearings 106d, and the oil storage cavity 106i is in communication with the flow cavity 106 i. The supporting wheel is designed to support the annular chain at intervals, so that the conveying mechanism can be prevented from deforming due to bearing, conveying is affected, or the conveying mechanism is damaged due to uneven stress of the chain wheel or the chain, oil is supplied to the bearing of the supporting wheel uninterruptedly by utilizing the lubricating oil tank body, on one hand, the rotating resistance of the lower supporting wheel of the chain can be reduced, and on the other hand, the noise of the contact motion process of the chain, the supporting wheel and the shaft can be greatly reduced, so that the working environment is more comfortable.

Referring to fig. 9-10, in a preferred embodiment of the present invention, the fixing mechanism of the present invention includes a first fixing assembly and a second fixing assembly that are matched with each other, the first fixing assembly includes a first upper connecting rod 301, a first lower connecting rod 302, a reinforcing rod 303, a "U" shaped fixing rod 304, and two first "Z" shaped mounting frames 305, the first "Z" shaped mounting frames 305 include a first middle plate 305a, a first upper mounting plate 305b vertically connected to the first middle plate 305a, and a first lower mounting plate 305c vertically connected to the first middle plate 305a, the first upper connecting rod 301 and the first lower connecting rod 302 are respectively fixed up and down between the two first upper mounting plates 305b, the "U" shaped fixing rod 304 includes a "U" shaped upper section and an arc-shaped lower section connected to two free ends of the "U" shaped upper section, the lower end of the arc-shaped lower section extends to the rear of the first lower connecting rod 302 after being fixed with the front of the first upper connecting rod 301, and is fixedly connected to the first lower connecting rod 305, the first lower connecting rod is fixedly connected to the first lower mounting frame 305, the first upper connecting rod 302 forms a front two free ends of the "U" upper section 303. The second fixing assembly comprises a second upper connecting rod 306, a middle connecting rod 307, a second lower connecting rod 308, two second Z-shaped mounting frames 309, four movable mounting plates 310, an upper movable rod 311, a lower movable rod 312, two U-shaped movable rods 313 and a toggle rod 314, wherein the second Z-shaped mounting frames 309 comprise a second middle plate, a second upper mounting plate vertically connected to the second middle plate and a second lower mounting plate vertically connected to the second middle plate, the second upper connecting rod 306, the middle connecting rod 307 and the second lower connecting rod 308 are respectively fixedly arranged between the two second upper mounting plates in an upper, middle and lower fixing manner, the two movable mounting plates 310 are arranged outside the second Z-shaped mounting frames 309, the two movable mounting plates 310 are arranged inside the second Z-shaped mounting frames 309, the lower parts of the movable mounting plates 310 are hinged with the middle connecting rod 307, the upper movable rod 311 is fixedly connected to the upper parts of the two movable mounting plates 310, the lower movable rod 312 is respectively and fixedly connected to the middle parts of the two movable mounting plates 310, the U-shaped movable rod 313 comprises a U-shaped upper section, an arc middle section connected to two ends of the U-shaped upper section and a straight section connected to the lower end of the arc middle section, the straight section is fixed with the upper movable rod 311 and forms a bending part which bends upwards from downward extension, the straight section is formed in front of the second upper connecting rod 306, the bending part extends downwards and is fixedly connected to the lower movable rod 312, the U-shaped upper section is formed above the rear part of the movable mounting plate 310, the movable mounting plate 310 is provided with a first opening groove for accommodating the second upper connecting rod 306, the bending part can accommodate the second upper connecting rod 306, the second upper mounting plate is provided with a second opening groove for accommodating the lower movable rod 312, the middle connecting rod 307 is sleeved with a torsion spring 315, the torsion spring 315 is located between the inner side of the second Z-shaped mounting frame 309 and the movable mounting plate 310, the lower end of the torsion spring 315 is connected to the second lower connecting rod 308, the upper end of the torsion spring 315 is connected to the lower movable rod 312 and is used for applying pressure to the lower movable rod 312, the toggle rod 314 is connected to one of the lower ends of the two movable mounting plates 310 located in the middle, the lower end of the toggle rod 314 is rotationally connected with a toggle wheel, the first fixing component is respectively fixed on two annular chains through the two first lower mounting plates, the second fixing component is respectively fixed on the two annular chains through the two second lower mounting plates, a toggle cross rod is fixed on the inner side of the side plate of the frame 101 and corresponds to the position of the turnover frame 205 in a vertical state, and can be briefly matched with the toggle wheel so that the U-shaped movable rod 313 is opened to be matched with the U-shaped fixing rod 304 to clamp a partition plate. The first fixing component and the second fixing component are matched with each other, the first fixing component is fixed and then is fixed, the second fixing component is fixed on the second conveying mechanism and moves to a specific position and can be opened by toggling the cross rod, and therefore the U-shaped movable rod 313 is opened to clamp the partition board in a matched mode with the U-shaped fixing rod 304. According to the invention, the partition boards on the second conveying mechanism can be fixed at intervals by arranging the fixing mechanism, so that the partition boards are prevented from toppling over, the partition boards are maintained in the curing kiln at intervals, air drying can be facilitated, and curing efficiency is improved.

In addition, the system further comprises a controller, the controller adopts a programmable logic controller as a layered control structure, the controller comprises a main controller, a first slave controller, a second slave controller, a third slave controller and a fourth slave controller, wherein the main controller is communicated with each slave controller through a network, the first slave controller is used for controlling a motor of the first conveying mechanism 100 so as to control the first conveying mechanism 100 to sequentially convey one partition plate to the transfer mechanism 200 at intervals, the second slave controller is used for controlling a first hydraulic cylinder 205g stroke so as to drive the turnover frame 205 to turn over the partition plate and recover the turnover frame 205, the third slave controller is used for controlling a second hydraulic cylinder stroke so as to push the partition plate in a vertical state from the turnover frame 205 to the second conveying mechanism 300, the fourth slave controller is used for controlling the motor of the second conveying mechanism 300 so as to convey the partition plate into the curing kiln M, and the main controller is matched with the control panel to report information to an upper computer.

The invention also provides a building partition plate production line method by using the building partition plate production line system, which comprises the following steps:

controlling the motor of the first conveying mechanism 100 to control the first conveying mechanism 100 to sequentially convey one partition plate to the transfer mechanism 200 at intervals;

Controlling the stroke of the first hydraulic cylinder 205g so as to drive the turnover frame 205 to turn over the partition plate, and recovering the turnover frame 205 after the pushing mechanism pushes the partition plate to the second conveying mechanism;

controlling the second hydraulic cylinder stroke to push the partition plate in the vertical state from the roll-over frame 205 to the second conveying mechanism 300;

the motor of the second conveying mechanism 300 is controlled to convey the partition plate into the curing kiln M.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a building partition plate assembly line production system which characterized in that: the system comprises a first conveying mechanism, a transfer mechanism, a second conveying mechanism and a curing kiln, wherein the first conveying mechanism is used for conveying formed building partition boards to the transfer mechanism, the transfer mechanism is arranged at the tail end of the first conveying mechanism and at one side of the starting end of the second conveying mechanism and used for receiving building partition boards, turning the building partition boards in a horizontal state into a vertical state and then pushing the building partition boards to the second conveying mechanism, and the rear end of the second conveying mechanism extends in the curing kiln and is used for conveying the building partition boards into the curing kiln;

The transfer mechanism comprises a bottom frame, a height adjusting mechanism, a mounting base, a hanging vertical plate, a roll-over stand and a pushing mechanism, wherein the bottom frame comprises a bottom plate, a plurality of universal wheels and universal wheel locking pieces, the universal wheels and the universal wheel locking pieces are arranged below the bottom plate, the mounting base is connected onto the bottom plate through the height adjusting mechanism, the hanging vertical plate is vertically fixed onto the bottom plate and positioned at the rear side of the mounting base, the mounting base comprises a bottom plate and four side plates fixed onto the bottom plate and sequentially connected with each other, a pair of arc openings with upward openings are symmetrically arranged on the front side plate and the rear side plate, rolling grooves are formed in the arc openings along the whole arc openings, the roll-over stand comprises a storage plate, a left baffle plate and a rear side mounting plate, the left baffle plate is connected onto the storage plate, a limiting assembly is arranged on the storage plate, an upward-protruding mounting part is formed in the middle of the rear side mounting plate, the suspension vertical plate is provided with a rotating bearing and is connected with a rotating shaft through the rotating bearing, the mounting part is fixedly connected with the rotating shaft, the turnover frame is suspended above the mounting base, two fan-shaped supporting plates are symmetrically fixed at the bottom of the storage plate and are respectively positioned above two circular arc openings, two rollers and a limiting plate are arranged below the fan-shaped supporting plates, the rollers are positioned in the rolling groove, the limiting plate is connected at the outer side of the supporting plate and extends downwards, the free end of the limiting plate is positioned at the outer side of a side plate of the mounting base, a driving rod is fixed at the right end of the outer side of the rear mounting plate, a first hydraulic cylinder fixing seat is also mounted on the bottom plate, a first hydraulic cylinder is fixed on the hydraulic cylinder fixing seat, a telescopic rod of the first hydraulic cylinder is hinged with the driving rod, the pushing mechanism comprises two second hydraulic cylinders, the utility model discloses a hydraulic cylinder, including the backup pad, hang riser rear side, two second pneumatic cylinder fixing bases about the backup pad is fixed with the second pneumatic cylinder fixing base, the telescopic link of second pneumatic cylinder hangs the riser setting perpendicularly, hang the riser and offer the first through-hole that supplies the telescopic link of second pneumatic cylinder to pass through, the second through-hole that supplies the telescopic link of second pneumatic cylinder to pass through is offered to the rear side mounting panel.

2. The building partition line production system of claim 1, wherein: the limiting component comprises a left fixing mechanism and a right fixing mechanism, the fixing mechanism comprises a fixing upright rod, a rotating sleeve rod, a rotating long rod and a limiting rod, the two fixing upright rods are respectively fixed at the edges of the right ends of the front side and the rear side of the object placing plate, one end of the rotating sleeve rod is vertically fixed on the fixing upright rod, the other end of the rotating sleeve rod extends leftwards parallel to the rear side mounting plate, the right end of the rotating long rod is rotationally connected in the rotating sleeve rod, the left end of the rotating long rod is rotationally inserted in the left side baffle, the rotating long rod is suspended above the object placing plate and is parallel to the rear side mounting plate, a plurality of limiting transverse plates are uniformly and vertically arranged on the rotating long rod at intervals, the utility model discloses a dead lever, including locating lever, adjusting bolt, connecting rod, locating lever, connecting rod, adjusting bolt, locating lever, connecting rod, locating lever vertical fixation is at the rotation stock right-hand member and extend to the middle of putting the thing board, the hollow loop bar that stretches out downwards is connected perpendicularly to the locating lever end, hollow loop bar both sides are formed with along the adjustment tank that length direction extends, the dead lever of gyro wheel support is equipped with in the interpolation of hollow loop bar, the dead lever passes through adjusting bolt and hollow loop bar to be fixed, gyro wheel support is connected with fore-and-aft pivoted gyro wheel, the cover is equipped with the torsional spring on the rotation loop bar, torsional spring one end is fixed on the rotation loop bar, and the other end overlap joint is on the locating lever and applys the clamp force to the locating lever.

3. The building partition line production system of claim 2, wherein: the guide assembly comprises two guide plates and a plurality of guide wheels arranged on the guide plates, the two guide plates are parallelly fixed on the storage plate and arranged along the left and right directions of the storage plate, the right ends of the guide plates are configured into inclined plane ends, the guide wheels are positioned in the weight reducing holes, a fixing groove is formed in the inner side of the left baffle, a sliding groove extending along the front and rear directions of the left baffle is formed in the middle of the fixing groove, a sliding wheel is arranged in the sliding groove, and the top of the sliding wheel is slightly higher than the sliding groove.

4. A building partition line production system as recited in claim 3 wherein: the first conveying mechanism and the second conveying mechanism comprise a frame, a motor, a speed reducer, a transmission chain, a transmission sprocket, a transmission wheel, a transmission main shaft, a driven shaft, two driving sprockets, two driven sprockets, two annular chains and a plurality of conveying plates, wherein the transmission sprocket is sequentially connected with the speed reducer and the motor through a transmission shaft, the motor is connected with the speed reducer, the speed reducer is connected with the transmission sprocket through the transmission shaft, the transmission main shaft and the driven shaft are respectively connected on the frame through bearings in a back-and-forth rotating manner, the transmission sprocket is connected with the transmission wheel penetrating on the transmission main shaft through the transmission chain, the two driving sprockets are respectively positioned on the inner sides of the two side plates, the two driven sprockets are respectively penetrated on the driven shaft and positioned on the inner sides of the two side plates, the driving sprockets are connected with the driven sprockets through the annular chains, the plurality of conveying plates are sequentially and adjacently fixed between the two annular chains, and the conveying plates are of a hollowed structure.

5. The building partition line production system of claim 4, wherein: the first conveying mechanism is further provided with a plurality of pushing plates at intervals between the two annular chains, the pushing plates are perpendicular to the pushing plates, the distance between every two adjacent pushing plates is slightly larger than the length of the partition plate, the height of the top of the first conveying mechanism is identical to that of the object placing plate in a horizontal state, the second conveying mechanism is provided with a plurality of fixing mechanisms at intervals between the two annular chains, the fixing mechanisms are used for fixing the partition plate, and the height of the top of the second conveying mechanism is identical to that of the left baffle plate in a vertical state of the transfer mechanism.

6. The building partition line production system of claim 5, wherein: the novel U-shaped support is characterized in that a U-shaped support is further arranged at the top of a side plate of the frame, the U-shaped support is parallel to the upper section of the annular chain and is outwards arranged through an opening, a plurality of hollow shafts are sequentially fixed on the U-shaped support at intervals through bolts, supporting wheels are connected to the inner sides of the U-shaped support and are rotatably connected with the hollow shafts through front and rear bearings, the supporting wheels are abutted to the lower side of the upper section of the annular chain and used for improving supporting force, a sealing cap is connected to the inner end of the hollow shaft, an oil inlet cap is connected to the outer end of the hollow shaft, the oil inlet cap is connected with a lubricating oil tank body through an oil inlet pipe, a flow cavity communicated with the oil inlet cap is formed in the hollow shaft, an oil storage cavity is formed among the hollow shaft, the supporting wheels and the two bearings, and the oil storage cavity is communicated with the flow cavity.

7. The building partition line production system of claim 5, wherein: the fixing mechanism of the second conveying mechanism comprises a first fixing component and a second fixing component which are matched with each other, the first fixing component comprises a first upper connecting rod, a first lower connecting rod, a reinforcing rod, a U-shaped fixing rod and two first Z-shaped mounting frames, the first Z-shaped mounting frames comprise a first middle plate, a first upper mounting plate vertically connected to the first middle plate and a first lower mounting plate vertically connected to the lower side of the first middle plate, the first upper connecting rod and the first lower connecting rod are respectively and fixedly arranged between the two first upper mounting plates in a penetrating manner up and down, the U-shaped fixing rod comprises a U-shaped upper section and an arc-shaped lower section connected to two free ends of the U-shaped upper section, the lower end of the arc-shaped lower section is fixedly connected with the front of the first upper connecting rod and then extends to the rear of the first lower connecting rod and is fixedly connected with the first lower connecting rod, the reinforcing rod is connected with the tail ends of two free ends of the U-shaped upper section, the U-shaped upper section and the reinforcing rod are formed above the front of the first Z-shaped mounting frame, the second fixing component comprises a second upper connecting rod, a middle connecting rod, a second lower connecting rod, two second Z-shaped mounting frames, four movable mounting plates, an upper movable rod, a lower movable rod, two U-shaped movable rods and a toggle rod, the second Z-shaped mounting frame comprises a second middle plate, a second upper mounting plate vertically connected with the second middle plate and a second lower mounting plate vertically connected with the lower part of the second middle plate, the second upper connecting rod, the middle connecting rod and the second lower connecting rod are respectively fixedly arranged between the two second upper mounting plates in a penetrating manner, the two movable mounting plates are arranged outside the second Z-shaped mounting frame, the two movable mounting plates are arranged on the inner sides of the second Z-shaped mounting frame, the lower parts of the movable mounting plates are hinged with the middle connecting rods, the upper movable rods are fixedly connected to the upper parts of the two movable mounting plates, the lower movable rods are respectively and fixedly connected to the middle parts of the two movable mounting plates, each U-shaped movable rod comprises a U-shaped upper section, an arc-shaped middle section connected to the two ends of the U-shaped upper section and a straight section connected to the lower end of the arc-shaped middle section, the straight section is fixedly connected with the upper movable rods after the straight section and extends downwards to form a bending part upwards, the straight section is formed in front of the second upper connecting rods, the bending part extends downwards to be fixedly connected to the lower movable rods, the U-shaped upper section is formed above the rear of the movable mounting plates, the movable mounting plates are provided with first opening grooves for accommodating the second upper connecting rods, the bending part can accommodate the second upper connecting rods, the second upper mounting plate is provided with a second open slot for accommodating the lower movable rod, the middle connecting rod is sleeved with a torsion spring, the torsion spring is positioned between the inner side of the second Z-shaped mounting frame and the movable mounting plate, the lower end of the torsion spring is connected to the second lower connecting rod, the upper end of the torsion spring is connected to the lower movable rod and used for applying pressure to the lower movable rod, the toggle rod is connected to one lower end of the two middle movable mounting plates, the lower end of the toggle rod is rotationally connected with a toggle wheel, the first fixing component is respectively fixed on two annular chains through the two first lower mounting plates, the second fixing component is respectively fixed on the two annular chains through the two second lower mounting plates, a toggle cross rod is fixed on the inner side of a side plate of the frame and corresponds to the position of the vertically lower turnover frame, the poking cross rod can be matched with the poking wheel in a short time poking mode, so that the U-shaped movable rod is opened to be matched with the U-shaped fixed rod to clamp the partition board.

8. The building partition line production system of claim 7, wherein: the controller adopts a programmable logic controller as a layered control structure, and comprises a main controller, a first slave controller, a second slave controller, a third slave controller and a fourth slave controller, wherein the main controller and each slave controller are communicated through a network, the first slave controller is used for controlling a motor of the first conveying mechanism so as to control the first conveying mechanism to sequentially convey a partition plate to the transfer mechanism at intervals, the second slave controller is used for controlling the stroke of the first hydraulic cylinder so as to drive the turnover frame to turn over the partition plate and recover the turnover frame, the third slave controller is used for controlling the stroke of the second hydraulic cylinder so as to push the partition plate in a vertical state from the turnover frame to the second conveying mechanism, the fourth slave controller is used for controlling the motor of the second conveying mechanism so as to convey the partition plate into the curing kiln, and the main controller and the control panel are matched to report information to the upper computer.

9. The building partition line production system of claim 1, wherein: the height adjusting mechanism comprises a rotating wheel, a rotating rod, a driving gear, a driven gear, a rotating sleeve, a lifting rod, a sliding sleeve and a guiding rod, wherein the sliding sleeve is fixed under a bottom plate, the guiding rod is fixed on a bottom plate and is inserted into the sliding sleeve, the rotating sleeve is arranged on the bottom plate in a penetrating mode through a bearing, threads are formed on the inner wall of the rotating sleeve, the driven gear is sleeved outside the rotating sleeve, the lifting rod is fixed on the bottom plate and is inserted into the rotating sleeve, the upper end of the lifting rod is in threaded connection with the rotating sleeve, the rotating rod is connected onto a side plate of the installation base in a rotating mode through the bearing, one end of the rotating rod is connected with the rotating wheel arranged on the outer side of the installation base, the other end of the rotating rod is connected with the driving gear, and the driving gear is meshed with the driven gear vertically.